KR102214806B1 - Plate heat exchanger - Google Patents

Abstract

A plate-type heat exchanger comprising heat exchanger plates (A, A', A", B, B', B") forming a space (1, 2, 3) between the first, second and third plates. The plate extends between the top plane 6 and the bottom plane 7. The first inlet and outlet ports 11 and 12 communicate with the space between the first plates. The second inlet and outlet ports 21 and 22 communicate with the space between the second plates. The third inlet and outlet ports 31 and 32 communicate with the space between the third plates. The portholes of the second and third ports are surrounded by an outer flat area 15 surrounded by an inner flat area 17. The outer flat area is located in one of the top and bottom planes. The inner flat areas of the second ports of the plate surrounding the space between the second plates are located at a distance from each other. The inner flat areas of the second port of the plate surrounding the space between the third plates are adjacent to each other.

Description

Plate heat exchanger

The present invention relates to a plate heat exchanger according to the preamble of claim 1. Such a plate heat exchanger is disclosed in US Pat. No. 6,164,371.

This prior art plate heat exchanger for 3 media can have 6 ports, 4 ports open to one interplate space, closed for the next 2 interplate spaces, and the next one It will open to the interspace and close to the next two plates. The plate heat exchanger disclosed in U.S. Patent No. 6,164,371 is disadvantageous due to the fragility around these four ports and is therefore prone to collapse. The space between every third plate is closed by a porthole having a smaller diameter than the adjacent portholes in these four ports. The outer flat area of the porthole with a smaller diameter extends a longer distance into the port. In addition to reducing the free flow area of the port, this solution weakens the heat exchanger plate in these four porthole areas.

It is an object of the present invention to overcome the problems described above and to provide an improved plate heat exchanger having interplate spaces for three different media.

This purpose is achieved by the initially defined plate heat exchanger, where the plate heat exchanger surrounds the space between the second plate, and the inner flat areas of the portholes of the second inlet and outlet ports of the heat exchanger plate are located at a distance from each other. It is characterized in that the inner flat areas of the portholes of the second inlet and outlet ports of the heat exchanger plate are adjacent to each other and are located in one of an upper plane and a lower plane, surrounding the space between the third plates.

With the help of the feature that the outer flat areas of the portholes of all ports of all heat exchanger plates are located in one of the top and bottom planes, the outer flat areas of all heat exchanger plates are located in the other outer flat areas of the adjacent heat exchanger plates of the plate package. Will be adjacent. This structure ensures high strength at the ports of the plate heat exchanger.

The inner flat areas of the portholes of the second inlet and outlet ports of the heat exchanger plate, enclosing the space between the second plates, are spaced from each other and from the upper and lower planes 6, 7, for example with the lower plane With the aid of the feature located between the top planes, the second inlet and outlet ports can communicate with the space between the second plates.

With the help of the feature that the inner flat areas of the portholes of the second inlet and outlet ports of the heat exchanger plate surrounding the space between the third plates are adjacent to each other and are located in one of the upper plane and the lower plane, the space between the third plates is surrounded. The inner flat areas of the portholes of the second inlet and outlet ports of the heat exchanger plate will be adjacent to each other for all heat exchanger plates surrounding the space between the third plate.

According to an embodiment of the invention, the inner flat areas of the portholes of the third inlet and outlet ports of the heat exchanger plate, surrounding the space between the third plates, are spaced apart from each other and from the top and bottom planes 6, 7 The inner flat areas of the portholes of the third inlet and outlet ports of the heat exchanger plate, for example located between the bottom plane and the top plane, and surrounding the space between the second plate are adjacent to each other, and one of the top plane and the bottom plane Is located in one. As a result, the third inlet and outlet ports of the plate surrounding the space between the third plates can be configured in the same manner as the second inlet and outlet portions of the heat exchanger plate surrounding the space between the third plates.

According to another embodiment of the invention, the outer flat areas of the portholes of the first inlet and outlet ports of the heat exchanger plate are adjacent to the corrugations of the heat exchanger area. Thus, there is no inner flat area surrounding the outer flat area of the porthole of the first inlet and outlet ports.

According to another embodiment of the present invention, each of the portholes of the second inlet port has the same diameter for all heat exchanger plates of the plate package.

According to another embodiment of the invention, each of the portholes of the second outlet port has the same diameter for all heat exchanger plates of the plate package.

According to another embodiment of the present invention, each of the portholes of the third inlet port has the same diameter for all heat exchanger plates of the plate package.

According to another embodiment of the invention, each of the portholes of the third outlet port has the same diameter for all heat exchanger plates of the plate package.

According to another embodiment of the present invention, the diameter of the porthole of the second inlet port is the same as the diameter of the porthole of the third inlet port.

According to another embodiment of the present invention, the diameter of the porthole of the second outlet port is the same as the diameter of the porthole of the third outlet port.

According to another embodiment of the present invention, a heat exchanger plate includes a first heat exchanger plate and a second heat exchanger plate provided in an alternating order in the plate package.

According to another embodiment of the present invention, a space between each second plate is provided between one of the second heat exchanger plates and one of the first heat exchanger plates, and the space between each third plate is a second heat exchanger plate. It is provided between one of and one of the first heat exchanger plates.

According to another embodiment of the present invention, the inner flat areas of the portholes of the second inlet and outlet ports of the first heat exchanger plate adjacent to the space between the third plates are located in the lower plane.

According to another embodiment of the present invention, the inner flat area of the porthole of the second inlet and outlet ports of the second heat exchanger plate, adjacent to the space between the third plates, is located in the upper plane.

According to another embodiment of the present invention, the inner flat area of the porthole of the third inlet and outlet ports of the first heat exchanger plate, adjacent to the space between the second plates, is located in the upper plane.

According to another embodiment of the present invention, the inner flat area of the porthole of the third inlet and outlet ports of the second heat exchanger plate, adjacent to the space between the second plates, is located in the lower plane.

According to another embodiment of the present invention, a space between each first plate is provided between one of the first heat exchanger plates and one of the second heat exchanger plates.

According to another embodiment of the present invention, the first heat exchanger plate includes a first end plate adjacent to the outermost interspace of the first plate interspace, and the second heat exchanger plate is the other outermost interspace between the first plates. And a second end plate adjacent to the outer interspace.

According to another embodiment of the present invention, the second inlet and outlet ports of the first end plate and the inner flat areas of the portholes of the third inlet and outlet ports are located in the top plane. Thus, the inner flat region of the first end plate can be adjacent to the frame plate of the plate heat exchanger.

According to another embodiment of the present invention, the second inlet and outlet ports of the second end plate and the inner flat areas of the portholes of the third inlet and outlet ports are located in the lower plane. Thus, the inner flat region of the second end plate can be adjacent to the pressure plate of the plate heat exchanger.

The invention will now be described in more detail through the description of various embodiments and the accompanying drawings.
1 shows a front view of a plate heat exchanger according to an embodiment of the present invention.
Figure 2 discloses a side view of the plate heat exchanger of Figure 1;
3 discloses a cross-sectional view taken along the line III-III of FIG. 1.
4 discloses a cross-sectional view along the line IV-IV of FIG. 1.
5 discloses a first heat exchanger plate of the plate heat exchanger of FIG. 1.
6 discloses a second heat exchanger plate of the plate heat exchanger of FIG. 1.

1 to 4 disclose a plate heat exchanger comprising a plate package of heat exchanger plates A, A', A", B, B', B". The heat exchanger plates (A, A', A", B, B', B") are stacked on each other to form a space between the first plates for the main medium (1), the space between the second plates for the first auxiliary medium (2), and A space 3 between the third plates for the second auxiliary medium is formed.

The main medium can be a heating or cooling medium such as hot or cold water, for example. The first auxiliary medium may be a first refrigerant that is evaporated or condensed. The second auxiliary medium may be a second refrigerant that is evaporated or condensed.

As can be seen in Figs. 3 and 4, the inter-plate spaces 1-3 are arranged in the following order: the first inter-plate space 1, the second inter-plate space 2, and the first inter-plate space (1), the space between the third plates (3), the space between the first plates (1), the space between the second plates (2), the space between the first plates (1), the space between the third plates (3), The space between the first plates (1), the space between the second plates (2), the space between the first plates (1), the space between the third plates (3) and the space between the first plates (1). In the disclosed embodiment, the plate heat exchanger includes 13 interplate spaces 1-3. It should be noted that this is only an example, and that the plate heat exchanger may include a smaller or larger number of interplate spaces 1-3.

Each heat exchanger plate (A, A', A", B, B', B") extends parallel to the extension plane p and comprises a heat exchanger region 4 with corrugations 5 ( 5 and 6). The corrugation 5 extends between the upper plane 6 and the lower plane 7 (see FIGS. 3 and 4 ). The top plane 6 and the bottom plane 7 are parallel to each other and to the extension plane p. The extension plane p forms a central plane extending halfway between the top plane 6 and the bottom plane 7.

The corrugations 5 are formed by floors and valleys. In the disclosed embodiment, the corrugations 5 of the ridges and valleys extend to the longitudinal central axis x and form an angle of inclination with the longitudinal central axis x. The pleats 5 form an arrow pattern as can be seen in FIGS. 5 and 6. Other types of wrinkles (5) are possible.

The plate heat exchanger and plate package also includes a frame plate 8 on one side of the heat exchanger plate (A, A', A", B, B', B") and heat exchanger plate (A, A', A", B, B', B") on the other side of the pressure plate (9). As can be seen in FIGS. 3 and 4, the frame plate 8 and the pressure plate 9 are also extended planes p of the heat exchanger plates A, A', A", B, B', B". ) And extends parallel.

The plate heat exchanger and plate package includes 6 ports 11, 12, 21, 22, 31, 32 as can be seen in FIG. Ports 11, 12, 21, 22, 31, 32 extend through the heat exchanger plates A, A', A", B, B', B" and frame plate 8.

Ports (11, 12, 21, 22, 31, 32) include first inlet and outlet ports (11, 12), second inlet and outlet ports (21, 22) and third inlet and outlet ports (31, 32) Includes.

The first inlet port 11 and the first outlet port 12 communicate with the first interplate space 1 and allow supply and discharge of the main medium to and from the first interplate space 1. The first inlet and outlet ports 11 and 12 are closed to the spaces 2 and 3 between the second and third plates.

The second inlet port 21 and the second outlet port 22 communicate with the second interplate space 2 and allow supply and discharge of the first auxiliary medium to and from the second interplate space 2 . The second inlet and outlet ports 21 and 22 are closed to the spaces 1 and 3 between the first and third plates.

The third inlet port 31 and the third outlet port 32 communicate with the third interplate space 3 and allow supply and discharge of a second auxiliary medium to and from the third interplate space 3 . The third inlet and outlet ports 31 and 32 are closed to the spaces 1 and 2 between the first and second plates.

In the disclosed embodiment, the second inlet and outlet 21 and 22 are located on the left in FIG. 1 and the third inlet and outlet 31 and 32 are located on the right in FIG. 1. However, the flow of the first auxiliary and the second auxiliary medium can alternatively extend in a diagonal direction, so that in FIG. 1 the second inlet 21 and the third outlet 32 are on the left and the second outlet 22 And the third inlet 31 may be located on the right side.

Each port 11, 12, 21, 22, 31, 32 is formed by a port hole 14 through each of the heat exchanger plates A, A', A", B, B', B" ( 5 and 6). Each porthole 14 is surrounded by an outer flat area 15. The outer flat region 15 forms or defines the porthole edge 16 of the porthole 14. The outer flat region 15 is annular and extends parallel to the extension plane p.

The outer flat area 15 of the porthole 14 of the second inlet and outlet ports 21 and 22 and the third inlet and outlet ports 31 and 32 is surrounded by an inner flat area 17 (Figs. 6). The inner flat region 17 is annular and extends parallel to the extension plane p.

The outer flat area 15 of the porthole 14 of the first inlet and outlet ports 11, 12 abuts the corrugation 5 of the heat exchanger area 4 (see FIGS. 5 and 6 ). Thus, there is no annular inner flat area around the outer flat area 15 of the porthole 14 of the first inlet and outlet ports 11 and 12.

Each heat exchanger plate (A, A', A", B, B', B") comprises an edge flange 18 extending around the heat exchanger region 4. The edge flange 18 forms an angle of inclination with respect to the extension plane p.

The heat exchanger plates (A, A', A", B, B', B") are the first heat exchanger plates (A, A', A") (see Fig. 5) and the second heat exchanger plates (B, B ', B") (see Fig. 6). The first and second heat exchanger plates A, A', A", B, B', B" are provided in an alternating order in the plate package.

Corrugations 5 of the ridges and valleys are, as can be seen in FIGS. 5 and 6, the first direction and the second heat exchanger plates B, B'on the first heat exchanger plates A, A', A". , B") forming an arrow along the second direction, opposite to the first direction.

In the plate package, the edge flanges 18 of the first and second heat exchanger plates A, A', A", B, B', B" extend in the same direction. Possibly, the edge flange 18 of the first heat exchanger plate (A, A', A") can extend from the top plane 6 and the second heat exchanger plate (B, B', B") The edge flange 18 of the can extend from the bottom plane 7.

Each of the first inter-plate spaces (1) is the first heat exchanger plate (A, A', when viewed from the frame plate (8) or from the open end of the ports (11, 12, 21, 22, 31, 32)). It is provided between one of A") and one of the second heat exchanger plates B, B', B". Each of the spaces between the second plates (2) is a second heat exchanger plate (B, B', when viewed from the frame plate (8) or from the open end of the ports (11, 12, 21, 22, 31, 32)). B") and one of the first heat exchanger plates (A, A', A"). Each of the spaces between the third plates (3) is the second heat exchanger plate (B, B', when viewed from the frame plate (8) or from the open end of the ports (11, 12, 21, 22, 31, 32)). B") and one of the first heat exchanger plates (A, A', A").

Each of the portholes 14 of the second inlet port 21 has the same diameter d for all heat exchanger plates A, A', A", B, B', B" of the plate package. Each of the portholes 14 of the third inlet port 31 has the same diameter d for all heat exchanger plates A, A', A", B, B', B" of the plate package. The diameter of the porthole 14 of the second inlet port 21 may be the same as the diameter of the porthole 14 of the third inlet port 31.

Each of the portholes 14 of the second outlet port 22 has the same diameter d for all heat exchanger plates A, A', A", B, B', B" of the plate package. Each of the portholes 14 of the third outlet port 32 has the same diameter d for all heat exchanger plates A, A', A", B, B', B" of the plate package. The diameter of the porthole 14 of the second outlet port 22 may be the same as the diameter d of the porthole 14 of the third outlet port 32.

The outer flat area (15) of the porthole of the port (11, 12, 21, 22, 31, 32) of the heat exchanger plate (A, A', A", B, B', B") is the top plane (6) And located on and parallel to one of the lower planes 7.

More specifically, the second inlet port 21, the second outlet port 22, the third inlet port 31 and the third outlet port 32 of the first heat exchanger plate (A, A', A") The outer flat area 15 of the porthole 14 of is located in the lower plane 7. The first inlet port 11 and the first outlet port of the first heat exchanger plates A, A', A" The outer flat area 15 of the porthole 14 of 12) is located on the top plane 6.

In a corresponding manner, the second inlet port 21, the second outlet port 22, the third inlet port 31 and the third outlet port 32 of the second heat exchanger plate (B, B', B") The outer flat area 15 of the porthole 14 of) is located on the top plane 6. The first inlet port 11 and the first outlet port of the second heat exchanger plates B, B', B" The outer flat region 15 of the porthole 14 of (12) is located on the lower plane (7).

The inner flat areas 17 of the portholes 14 of the second inlet and outlet ports 21 and 22 of the heat exchanger plates B and A surrounding each second plate interspace 2 are spaced apart from each other. Is positioned, and is disclosed in this embodiment between the lower plane 7 and the upper plane 6.

The inner flat areas 17 of the portholes 14 of the third inlet and outlet ports 31, 32 of the heat exchanger plates B', A'surrounding each third plate interspace 3 are distanced from each other. Is positioned between the lower plane 7 and the upper plane 6 in this embodiment.

The inner flat area 17 of the porthole 14 of the second inlet and outlet ports 21 and 22 of the first heat exchanger plate A'adjacent to each of the third plate interspace 3 is a top plane 6 ).

The inner flat area 17 of the porthole 14 of the second inlet and outlet ports 21 and 22 of the second heat exchanger plate B'adjacent to each of the third plate interspace 3 is a lower plane 7 ).

In a corresponding manner, the inner flat area 17 of the porthole 14 of the third inlet and outlet ports 31, 32 of the first heat exchanger plate A adjacent to the respective second plate interspace 2 Is located on the top plane 6.

The inner flat area 17 of the port hole 14 of the third inlet and outlet ports 31 and 32 of the second heat exchanger plate B adjacent to each second plate interspace 2 is a lower plane 7 ).

The first heat exchanger plate (A, A', A") includes an outermost space between the first plate spaces 1 and a first end plate A" adjacent to the frame plate 8. The second heat exchanger plate (B, B', B") includes another outermost space between the first plate spaces 1 and a second end plate B" adjacent to the pressure plate 9. The first end plate (A") is attached to the first heat exchanger plate (A, A') in that the inner flat area 17 of the porthole 14 of the second inlet and outlet ports is located in the top plane 7 The second end plate (B") is that the inner flat area 17 of the porthole 14 of the third inlet port 31 and the second inlet port 32 is located in the bottom plane 7. In that it is modified with respect to the second heat exchanger plates (B, B').

According to an alternative embodiment, the outer flat area 15 of the porthole 14 of the first inlet and outlet ports 11, 12 is a porthole of the second and third inlet and outlet ports 21, 22, 31, 32 It can be surrounded by the inner flat region 17 in the same way as (14). The inner flat area 17 of the porthole 14 of the first inlet and outlet ports 11, 12 is then formed with a first medium between the first inlet and outlet ports 11, 12 and the space 1 between the first plate. It is located between the top plane 6 and the bottom plane 7 to allow communication of the.

The present invention is not limited to the embodiments disclosed above, and may be changed and modified within the scope of the following claims.

Claims (15)

It is a plate type heat exchanger including the plate package of the heat exchanger plate, and the heat exchanger plate is a first interplate space (1) for a main medium, a second interplate space (2) for a first auxiliary medium, and a second auxiliary medium. Are stacked on each other to form a space 3 between the third plates,
Each heat exchanger plate (A, A', A", B, B', B") extends parallel to the extension plane (p), and the top plane (6) parallel to each other and parallel to the extension plane (p) And a heat exchanger region (4) having a corrugation (5) extending between the and the lower plane (7),
The plate package includes 6 ports (11, 12, 21, 22, 31, 32) extending through the heat exchanger plates (A, A', A", B, B', B"), 6 ports Is
A first inlet port (11) and a first outlet port (12) for supply and discharge of the main medium into and from the first interplate space (1),
A second inlet port 21 and a second outlet port 22 for supplying and discharging the first auxiliary medium to and from the second interplate space 2, and
A third inlet port 31 and a third outlet port 32 for supplying and discharging a second auxiliary medium to and from the third interplate space 3,
Each port (11, 12, 21, 22, 31, 32) is formed by a port hole 14 through each heat exchanger plate (A, A', A", B, B', B") ,
Each porthole 14 is surrounded by an outer flat region 15 forming a porthole edge 16,
The outer flat area 15 of the second inlet and outlet ports 21, 22 and the third inlet and outlet ports 31, 32 is surrounded by an inner flat area 17,
The outer flat area 15 of the porthole 14 of the ports 11, 12, 21, 22, 31, 32 of the heat exchanger plate (A, A', A", B, B', B") is in the top plane In the plate heat exchanger, which is located in one of (6) and the lower plane (7),
The inner flat areas 17 of the portholes 14 of the second inlet and outlet ports 21, 22 of the heat exchanger plates B, A, surrounding the second plate interspace 2, are from each other and from the top and Located at a distance from the bottom plane (6, 7),
The inner flat regions 17 of the portholes 14 of the second inlet and outlet ports 21, 22 of the heat exchanger plates B', A', surrounding the third plate interspace 3, are adjacent to each other. Plate heat exchanger, characterized in that it is located in one of the upper plane (6) and the lower plane (7). The inner flat region of the porthole (14) of the third inlet and outlet ports (31, 32) of the heat exchanger plates (B', A'), which surrounds the space between the third plates (3) ( 17) are located at a distance from each other and from the top and bottom planes 6, 7,
The inner flat regions 17 of the portholes 14 of the third inlet and outlet ports 31, 32 of the heat exchanger plates (B, A) surrounding the second plate interspace (2) are adjacent to each other and the top plane Plate heat exchanger, located in one of (6) and lower plane (7). The external flatness of the porthole (14) of the first inlet and outlet ports (11, 12) of the heat exchanger plate (A, A', A", B, B', B") according to claim 1 or 2 The region 15 is a plate heat exchanger, adjacent to the corrugation 5 of the heat exchanger region 4. The method according to claim 1 or 2, wherein each of the portholes (14) of the second inlet port (21) is for all heat exchanger plates (A, A', A", B, B', B") of the plate package. Plate heat exchangers of the same diameter (d). The method according to claim 1 or 2, wherein each of the portholes (14) of the second outlet port (22) is for all heat exchanger plates (A, A', A", B, B', B") of the plate package. Plate heat exchangers of the same diameter (d). The method according to claim 1 or 2, wherein each of the portholes (14) of the third inlet port (31) is for all heat exchanger plates (A, A', A", B, B', B") of the plate package. Plate heat exchangers of the same diameter (d). The method according to claim 1 or 2, wherein each of the portholes (14) of the third outlet port (32) is for all heat exchanger plates (A, A', A", B, B', B") of the plate package. Plate heat exchangers of the same diameter (d). The heat exchanger plate according to claim 1 or 2, wherein the heat exchanger plates (A, A', A", B, B', B") are provided in the plate package in alternating order. A") and a second heat exchanger plate (B, B', B"). 9. The space according to claim 8, wherein each second interplate space (2) is provided between one of the second heat exchanger plates (B) and one of the first heat exchanger plates (A), and the space between each third plate (3) is provided between one of the second heat exchanger plates (B') and one of the first heat exchanger plates (A'). The inner flat area (17) according to claim 8, in the porthole (14) of the second inlet and outlet ports (21, 22) of the first heat exchanger plate (A'), adjacent to the space between the third plates (3). ) Is a plate heat exchanger, located in the top plane (6). The inner flat area (17) of the porthole (14) of the second inlet and outlet ports (21, 22) of the second heat exchanger plate (B'), according to claim 8, adjacent to the space between the third plates (3). ) Is a plate heat exchanger, located on the bottom plane (7). The inner flat area (17) of the porthole (14) of the third inlet and outlet ports (31, 32) of the first heat exchanger plate (A), according to claim 8, adjacent to the space between the second plates (2) Plate heat exchanger, located in the top plane (6). The inner flat area (17) of the porthole (14) of the third inlet and outlet ports (31, 32) of the second heat exchanger plate (B), according to claim 8, adjacent to the space between the second plates (2) Plate heat exchanger, located in the lower plane (7). The method of claim 8, wherein the space between each of the first plates (1) is one of the first heat exchanger plates (A, A', A") and one of the second heat exchanger plates (B, B', B") Plate heat exchanger provided between. The method of claim 8, wherein the first heat exchanger plate (A, A', A") comprises a first end plate (A") adjacent to the outermost interspace of the first interlayer space (1), The two heat exchanger plates (B, B', B") include a second end plate (B") adjacent to the other outermost interspace of the first interlayer space (1).

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